Electric power supply control device for vehicle

ABSTRACT

An electric power supply control device for a vehicle comprises a lock actuator for driving actuators of the vehicle and an operation switch for outputting all operation instruction signal to the lock actuator. A circuit for vehicle running system for actuating an engine of the vehicle and a steering lock circuit for actuating the steering lock actuator in a locking direction are connected, exclusively with each other, to a power supply circuit. Wireless communication is conducted between a driver&#39;s transceiver and the vehicle when the vehicle engine is stopped and the power supply circuit therefor remains on, to automatically disconnect the power supply circuit.

This is a continuation of application Ser. No. 07/541,118, filed Jun.20, 1990, now U.S. Pat. No. 5,124,565.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention concerns an electric power supply control devicefor a vehicle and, in particular, it relates to an electric power supplycontrol device for a vehicle that electrically controls actuators of thevehicle such as a steering lock device and an engine ignition device.

2. Description of the Prior Art

Conventional steering lock devices for motorcycles etc. have beenactuated by, for example, rotating a mechanical key used in common witha key switch for turning on or off an electric power supply circuit thatincludes a starting circuit. When operating a vehicle having such asteering lock device, it is necessary to first unlock the steering lockdevice, turn the electric power supply circuit to on, press a startingswitch to start the engine. Accordingly, the operation of the steeringlock device tends to be complicated.

In view of the above, the present inventors have contemplated utilizingelectromotive actuators , etc. for the steering lock device to controlthe actuators with a simple switching operation.

Further, a device of controlling an electric power supply system offvehicle actuators by the input off code signal is disclosed in, forexample, Japanese Patent Laid-Open Sho 63-199186. However, if an engineignition circuit, etc. is inactivated not by means of usual offoperation to a main electric power supply of the device but by directlyactuating an emergency stopping means such as an engine kill switch orby accident (engine failure, etc.), the main electric power supply willstill remain on after the engine stops. Then, if the driver whileforgets to turn off the main power supply when he leaves the vehicle,electric power is consumed wastefully by the various electric devicessuch as lamps equipped in the vehicle.

The present invention has also been intended to avoid the consumption ofbattery power in such a case.

OBJECT OF THE INVENTION

It is, accordingly, a first object of the present invention to providean electric power supply control device for a vehicle that is capable ofcompleting an engine starting operation in a shorter period of time by asteering lock device using an electromotive actuator, etc. whilepossessing a Function equivalent to that of a conventional key switchintegrated with a steering lock device thereby providing a furtherimproved ease of operation, as well as controlling a steering lockactuator and an engine running actuator independently of andexclusively, to each other.

Another object of the present invention is to provide an electric powersupply control device for a vehicle of a code signal coincidence typethat is capable of automatically turning off a main electric powersupply if the main electric power supply should happen to remain on formore than a certain period of time after the engine has been stopped.

SUMMARY OF THE INVENTION

The first object of the present invention can be attained in accordancewith the present invention in an electric power supply control devicefor a vehicle comprising:

a lock actuator for driving a steering lock device of a vehicle and anoperation switch for outputting an operation instruction signal to thelock actuator, in which

the lock actuator is actuated by a signal from the operation switch, anda circuit for vehicle running system for actuating an engine of thevehicle and a steering lock circuit for actuating the lock actuator in alocking direction are connected, exclusively with each other, to anelectric power supply circuit.

In accordance with the constitution described above, locking andunlocking operations to the steering lock device can be conducted easilyby the operation to the operation switch, and the operation for theengine and the locking operation to the lock actuator can not beconducted simultaneously with each other.

In a specific embodiment of the present invention, the electric powersupply control device further comprises:

an operation switch disposed on the side of the vehicle for transmittinga predetermined request signal by manual operation,

a predetermined code signal transmission means carried by a driver fortransmitting a predetermined inherent code signal upon receiving thepredetermined request signal described above and

a comparison means disposed on the side of the vehicle for receiving thepredetermined inherent code signal and comparing it with a predeterminedset code, in which

the power supply circuit and the circuit for the vehicle running systemare connected, as well as the power supply circuit and the steering lockcircuit are disconnected from each other when the predetermined codesignal coincides with the predetermined set code.

In this specific embodiment, when the manual switch disposed on thevehicle is operated, the code transmitter carried by the driver and thereceiver disposed on the vehicle conduct communication automaticallybetween each other, and coincidence between both of the code signals areconfirmed by the code comparison means disposed on the vehicle, by whichit can be automatically judged whether a person who manipulates themanual switch is a right driver or not.

In another specific embodiment of the present invention, a circuit forlighting-up a parking lamp of the vehicle and the steering lock circuitare interlocked with each other.

In this embodiment, the steering lock actuator is locked automaticallywhen the parking lamp is lighted-up.

In a further specific embodiment of the present invention, a steeringangle sensor for detecting the steering position of a vehicle steeringhandle is further disposed and the lock actuator is operated uponinterlocking of the signal from the operation switch and the signal fromthe steering angle sensor.

According to this embodiment, since the condition regarding the steeringangle is further incorporated to the control operation, it is easy for adriver to manipulate the lock without taking care of the states of thelock.

Another object of the present invention can be attached in accordancewith the present invention in an electric power supply control devicefor a vehicle, in which

a main power supply disposed on a vehicle is turned on by wireless modecommunication between a portable transceiver and the vehicle, wherein

wireless mode communication is conducted between the portabletransceiver and the vehicle when the main power supply remain on and anengine is in a stopped state, and the main power supply is turned off ifnormal wireless mode communication can not be conducted normally over apredetermined period of time continuously.

In accordance with the feature of the present invention, if a driverforgets to disconnect the main power supply when he leaves the vehiclein a case where the engine is stopped directly by the operation to akill switch or by accident, the main power supply can be automaticallyturned off and, accordingly, wasteful power consumption can be avoided.

In a specific feature of this invention, having the foregoingconstitution, the wireless mode communication is conducted on everypredetermined time interval.

DESCRIPTION OF THE ACCOMPANYING DRAWINGS

These and other objects, as well as advantageous features of the presentinvention will be understood from the detailed descriptions forpreferred embodiments thereof with reference to the accompanyingdrawings, wherein

FIG. 1 is a perspective view for handle bars of a motorcycle to whichthe first invention of the present application is applied;

FIG. 2 is an explanatory view for the arrangement of a switch paneldisposed 'to the handlebars shown in FIG. 1;

FIG. 3 is a perspective view illustrating a motorcycle to which thefirst invention of the present application is applied;

FIG. 4 is a block diagram illustrating the outline of the electric powersupply control device for a vehicle according the first invention; and

FIG. 5 is a Flow chart showing the operation of the device according tothe invention;

FIG. 6 is perspective view for a portion of a motorcycle to which thesecond invention off the present application is applied;

FIG. 7 is a front elevational view of handlebars for the motorcycleshown in FIG. 6;

FIG. 8 is a vertical cross sectional view of a steering lock actuatorused in the device of the invention;

FIG. 9 is a horizontal cross sectional view of a steering lock actuatorused in the device of the invention;

FIG. 10 is a block diagram illustrating the outline for one embodimentof the electric power supply control device for a vehicle according tothe second invention;

FIGS. 11A,B and FIG. 12 are, respectively, flow charts illustrating theoperation of the embodiment shown in FIG. 10.

PREFERRED EMBODIMENTS OF THE INVENTION

The present invention will be described more specifically by way of itspreferred embodiments with reference to the accompanying drawings.

FIGS. 1 through 5 illustrate a preferred embodiment according to thefirst invention of the present application applied to a motorcycle.

FIGS. 6 through 12 illustrate a preferred embodiment according to thesecond invention of the present application applied to a motorcycle.

FIG. 1 illustrates the steering handlebars of a motorcycle to which thepresent invention is applied. On an operation switch panel 1 disposed ona top bridge of the handlebars, there are arranged various operationswitches such as an ON switch 2 and an OFF switch 3 for an electricpower supply circuit for a vehicle running system, a locking switch 4and an unlocking switch 5 for a steering lock device, and a parking lampswitch 6 as shown also in FIG. 2. Further, a slot for the insertion of amechanical key switch 7 is formed at a position adjacent to theoperation switch panel 1, and an engine switch 8 and a kill switch 9 areboth disposed near a handle grip.

As shown in FIG. 3, a fuel port unlock switch 10 is disposed near a fuelport on a fuel tank and a helmet holder unlock switch 11 is disposednear a rear seat. A steering angle sensor 12 for detecting the steeringangle of the handle bars and an actuator 13 for driving the steeringlock device are disposed at a position adjacent to a front fork pivotportion, and a fuel port unlock actuator 14 and a helmet holder unlockactuator 15 are disposed near the corresponding locks. An antenna 17 isdisposed at an appropriate position of a vehicle body so as to transmitand receive signals between a control unit 16 for controlling theactuators and a code transmitter, described later.

FIG. 4 is a block diagram illustrating the constitution of an electricpower supply control device for a vehicle according to the presentinvention. The device has the function of transmitting and receivingcode signals between the device main body and a code transmitter 18comprising, for example, an IC card carried by a driver to identifywhether a person who operates the card is a right user of the vehicle.The device comprises a transmitting/receiving circuit 19 that generatesa request signal when the ON switch 2 on the operation switch panel 1 ispressed and receives a code signal transmitted from the code transmitter18 in response to the request signal, and a code comparison circuit 20that compares the code signal received by the transmitting/receivingcircuit 19 with a predetermined reference code previously set within thecircuit.

The code comparison circuit 20 is connected to an electric power supplycircuit 21 for vehicle running system. The power supply circuit 21 isconnected to a battery power source 22 by an on instruction signalgenerated from the code comparison circuit 20 when the signal codecoincides with the reference set code. The power supply circuit 21 is soadapted that it can be disconnected from the battery power source 22 bythe operation to the OFF switch 3 on the operation switch panel 1, andit can also be operated by the mechanical key switch 7, so that thevehicle can be operated with no problems even if the circuit relating tothe comparison of the codes should happen to fail.

The electric power supply circuit 21 is connected to a running circuit23 and an unlock actuator circuit 24.

The running system circuit 23 comprises a load circuit 25 for each ofvarious lamps or alarms, an ignition circuit 26, and a start circuit 27,in which the ignition circuit 26 is connected to a kill switch 9 and thestart circuit 27 is connected to a start switch 8 by means of alock-disabling position detection circuit 28 connected to the output ofthe steering angle sensor 12. In this embodiment, the lock-disablingposition detection circuit 28 and the start switch 8 are connected inseries to the start circuit 27 and are adapted in such a way that theengine can be started only when the start switch 8 is pressed in a statewhere the handle bars are in a position other than a lock-enablingposition. Further, the running system circuit 23 is interlocked with asteering locking circuit 29 to be described later in such a way that therunning system circuit 23 is not actuated in a state where the steeringlock is enabled.

The unlocking actuator circuit 24 comprises electromotive actuators 13,14 and 15 connected to the steering unlocking switch 5, the fuel portunlocking switch 10 and the helmet holder unlocking switch 11,respectively, and each of the actuators is actuated in response to theoperation of the switch which unlocks the corresponding actuator.

The steering locking circuit 29 and a parking lamp circuit 30 areconnected to the battery power source 22 and are also interlocked withthe running system circuit 23. The steering locking circuit 29 isconnected to the steering locking switch 4 by means of a lock-enablingposition detection circuit 31 connected to the output of the steeringangle sensor 12 and is so adapted that when the steering locking switchis pressed and the handle bars are in the lock-enabling possibleposition, the actuator used in common with the steering lock actuator 13described above is actuated in a manner to lock the handlebars.

A parking lamp circuit 30 is connected to the parking lamp switch, andthe parking switch 6 is also connected in parallel to the steeringlocking circuit 29 by means of a lock-enabling position detectioncircuit 31 connected to the output circuit 31 of the steering anglesensor 12, so that the steering lock is locked at the same time with thepressing of the parking lamp switch 6.

As described above, the steering locking circuit 29 and the parking lampcircuit 30 are interlocked with the running system circuit 23 in such away that locking for the handlebars lock and the lighting of the parkinglamp are inhibited in a state wherein the running system circuit 23 isactuated.

The operation of the device according to the present invention will nowbe described with reference to FIG. 5.

At first, the driver presses the ON switch 2 disposed on the operationswitch panel 1 (S1). In response to this pressing, thetransmitting/receiving circuit 19 incorporated in the control unit 16disposed in the vehicle transmits, on a radio wave, a request signal ata predetermined frequency for a predetermined period of time (S2). Whenthe signal is received by the card-like code transmitter 18 carried bythe driver, the code transmitter 18 transmits a specific code signal apredetermined number of times (S3).

Then, the code signal is received by the transmitting/receiving circuit19 (S4) and compared with a code previously set to the code comparisoncircuit 20 (S5). If the received signal code coincides with the setreference code, the power supply circuit 21 for vehicle running systemis turned on and the ON switch 2 is illuminated (S6). The power supplycircuit 21 can be turned on manually also by the key switch 7 (S7).

Subsequently, the system determines whether the steering handlebars arelocked (S8). If they are in the locked state, the driver presses thesteering unlocking switch 5 on the operation panel 1 (S9). This causesan actuation instruction to be generated with respect to the steeringlock actuator 13 for a predetermined period of time (unlockingoperation), by which a lock pin for inhibiting relative rotation betweena front fork and a head pipe is displaced to release the steering lock(S1O).

The driver then presses the start switch 8 disposed near the handlebargrip (S11). At this point, the system determines whether the handlebarsare situated at a lock-disabling position according to the output Frownthe steering angle sensor 12 (S12). Since the engine will not start ifthe handlebars are not at the lock-disabling position, the driverreturns the handlebars to the lock-disabling position (S13) and thenagain presses the start switch 8. Now when the system determines thatthe handlebars are at the lock-disabling position at step 12 (S12), theengine starts (S14).

The engine is stopped in accordance with the judgement as to whether itis a normal stop or an emergency stop (S15). In a normal stop, the OFFswitch 3 is pressed (S16). Then, the engine stops (S17), and also theelectric power supply circuit 21 for vehicle running is turned off andthe lamp for the ON switch 2 is extinguished (S18). On the other hand,in an emergency stop, when the kill switch 9 is pressed (S19), theengine is immediately stops (S20). Subsequently, when the driver pressesthe OFF switch 3 (S21), the power supply circuit 21 is turned off (S18).Then, it is judged whether the locking for the handlebars is required(S22). If the locking is not necessary, the state is maintained as itis.

If the handlebars are to be locked, the locking is done in accordancewith a judgement whether it is necessary to light the parking lamp(S23). If it is not necessary for light the lamp, the driver presses thesteering lock switch (S24). The steering angle sensor 12 determineswhether the handlebars are turned to the lock-enabling position (S25).If they are at the lock-enabling position, an actuation instruction isissued to the steering lock actuator 13 for a predetermined period oftime (S26), by which the lock pin is protruded to lock the handlebars.If the handlebars are at the lock-disabling position, the lockinstruction is automatically held until the handlebars are turned to thelock-enabling possible position. When the handlebars reach thelock-enabling position, they are locked (S27).

On the other hand, if the parking lamp switch 6 is pressed (S28), theparking lamp is lit (S29), then the system determines the steering anglein step (S25). Subsequently, the handlebars are locked in the sameprocedure as described above.

When the power supply circuit 21 for vehicle running is on, the helmetholder and the fuel charging port can be unlocked, individually, by thecorresponding operation switches 10 and 11 disposed near the lockactuators.

Instead of self-holding the lock instruction, the system may also be soconstituted that the lock instruction is accepted only when thehandlebars are at the lock position.

In the embodiment of the present invention, since the lock actuator usedfor locking the handlebars are remote-controlled, it is possible todispose the steering lock device at such a position as not easilyaccessible.

As has been described above specifically for the illustrated embodimentof the present invention, locking and unlocking operations of thesteering lock can be achieved by merely pressing switches disposed onthe vehicle. Therefore, key operations are no longer necessary, whichdramatically improves the operability. In addition, since the enginewill not start if the handlebars are not at the lock-disabling position,it is easy for the driver to manipulate the lock without taking care ofthe status of the lock. In the steering lock device of this inventionusing electromotive actuators, etc., the operation of starting theengine can be completed in a shorter period of time, while providing afunction comparable with that of a conventional key switch integratedwith a steering lock, thereby attaining a further improved ease ofoperation.

Description will be made to the second invention of the presentapplication applied to a motorcycle with reference to FIGS. 6 to 12.

As shown in FIGS. 6 and 7, a vehicle 101 has handlebars 102, and a mainboard 103 is disposed on a top bridge 102a at the middle portion of thehandlebars 102. An 0N switch 103a, an OFF switch 103b, and a parkingswitch 103c are arranged on the main board 103. Further, a start switch122 and a kill switch 123 are disposed near a handle grip 102b. Further,a transmitting/receiving unit 106 having an antenna 105 is disposed tothe inner side of a cowl 104 and so adapted that it transmits a requestsignal at a predetermined frequency from the antenna 105 by pressing theOFF switch 103a of the parking switch 103c of the main board 103.

A small sized transceiver 107 that can be carried about in a pocket,etc. of a driver is combined in a wireless mode with thetransmitting/receiving unit 106, and adapted such that when a requestsignal transmitted from the antenna 105 is received by the transceiver107, the transceiver 107 transmits a code signal inherent to the driver.When the code signal is received on the antenna 105 of thetransmitting/receiving unit 106 and it coincides with a predeterminedset code described later, a coincidence signal is outputted.

A steering lock actuator 110 is incorporated near the main board 103 ofthe vehicle 101 and adapted so that the handlebars 102 can be locked orunlocked by the actuator.

As shown in FIGS. 8 and 9, a lock pin 112 is disposed within a casing111 for the steering lock actuator 110 slidably in the lateral directionin FIG. 8. First and second rods 112a, 112b are secured to the lock pin112 in perpendicular to the axial line of the pin. A compressed spring113 is held between the first rod 112a situated near the center of thelock pin 112 and the inner wall of the casing 111 (also refer to FIG.9), by which the lock pin 112 is always biased resiliently to the insideof the casing 111. An operation lever 114 has a knob 115 formed at oneend and being protruded to the outside of the vehicle (refer to FIG. 6).The other end of the lever 114 has a cam 114a generally of a V-shapedconfiguration. The cam 114a is engaged with the second rod 112b situatednear one end of the lock pin 112. With such a constitution, when theoperation lever 114 is pulled, the lock pin 112 can protrude outwardlyof the casing 111 against the resilient force of the spring 113 to lockthe handlebars 102. Further, a plunger 116 is disposed within the casing111 slidably in the vertical direction in FIG. 8, and the plunger 116 isalways biased resiliently by the spring 117 toward the lock pin 112. Thelock pin 112 has an engaging groove 118 formed between the first rod112a and the second rod 112b, so that the lock pin 112 can be held atthe locked position by engaging the top end of the plunger 116 into theengaging group 118. A lock detection switch 119 is disposed near thelock pin 112 in the casing 111 and the lock detection switch 119 isadapted in such a way that it is turned off when urged by a lever 120secured to the lock pin 112. The plunger 116 can be attracted by asolenoid 121 and the handlebars 102 can be unlocked by attracting theplunger 116 to release the engagement between the plunger 116 and thelock pin 112.

As shown in FIG. 10, the ON switch 103a, the OFF switch 103b, and theparking switch 103c on the main board 103 are connected to thetransmitting/receiving unit 106. The transmitting/receiving unit 106 hasa transmission circuit 106a and a receiving circuit 106b connected tothe antenna (105 in FIG. 6).

The unit 106 further comprises a comparison circuit 106c for comparingthe signal code transmitted from the transceiver 107 with apredetermined code set in a circuit 106d. The transmitting/receivingunit 106 is connected to a main power supply 109 by way of a main relay124.

When the ON switch 103a is pressed and the code signal of thetransceiver 107 coincides with the set code of thetransmitting/receiving unit 106 as a result of comparison made in thecircuit 106d, a coincide signal is generated from thetransmitting/receiving unit 106, by which the main relay 124 isenergized to connect the main power supply 109 with a battery powersource 125 and thus the power supply is turned on. On the other hand,the main power supply 109 is disconnected from the battery power source125 by pressing the OFF switch 103b thereby de-energizing the main relay124. An emergency switch 126 is connected in parallel with the mainrelay 124, so that the main power supply 109 can also be turned on andoff by opening and closing the emergency switch 126 by a mechanical key127 (refer to FIG. 6) attached to the transceiver 107 (refer to FIG. 6).

The start switch 122 and the kill switch 123 are disposed in parallelwith each other and connected to the main power supply 109. The killswitch 123 is connected by way of ignition coils 130 to an ignition unit131. When the start switch 122 is depressed in a state when the mainpower supply 109 is ON, the engine is started.

In a case if it is detected by an ignition monitor circuit 133 disposedto the ignition unit 131 that the engine is stopped and that the mainpower supply 109 still remain on, a request signal at a predeterminedfrequency is transmitted from the transmitting/receiving unit 106 by wayof the transmission circuit 106a on every predetermined time to thetransceiver 107. If normal communication is not taken place between thetransmitting/receiving unit 106 and the transceiver 107 continuously fora predetermined period of time, the unit 106 deenergizes the main relay124 to automatically turn off the main power supply 109.

The main relay 124 is connected with the solenoid 121 in the steeringlock actuator 110 and the solenoid 121 is connected to the connectionswitch 119. Thus, when the main relay 124 is energized in a state wherethe lock detection switch 119 is ON, the solenoid 121 is energized.Further, the lock detection switch 119 is connected by way of anignition control unit 132 to the ignition unit 131, so that if the lockdetection switch 119 is turned on upon starting the engine by pressingthe start switch 122, a reducing signal is sent from the ignitioncontrol unit 132 to the ignition unit 131 to inhibit the engine frombeing ignited normally.

Further, an ignition monitor circuit 133 is connected to the ignitionunit 132 so that the transmitting/receiving unit 106 can detect the stopof the engine under the status where the main power supply 109 remainson.

The transmitting/receiving unit 106 is connected by way of a parkingrelay 128 to a parking lamp 129, so that when the parking switch 103c ispressed and the code signal from the transceiver coincides with the codeset to the circuit 106d, a coincide signal is generated from thetransmitting/receiving unit 106 to energize the parking relay 128 andlight the parking lamp 129. The parking lamp 129 can be lit only whenthe main power supply 109 is OFF, and it is extinguished when the mainpower supply 109 is turned on.

The operation of this embodiment according to the present inventionhaving constitution as has been described above will be explained whilereferring to FIGS. 10 through 12.

At first, when the driver presses the ON switch 103a on the main board103 (S1), the transmitting/receiving unit 106 disposed in the vehicle101 transmits a request signal at a predetermined frequency for apredetermined period of time in response to this pressing from thetransmission circuit 106a by way of the antenna 105 (S2). When therequest signal is received by the card-like transceiver 107 carried bythe driver (S3), the transceiver 107 automatically transmits a codesignal inherent to the driver for a predetermined number of times (S4).Then, the code signal is received by way of the receiving circuit 106bto the transmitting/receiving unit 106 (S5) and compared by thecomparison circuit 106c with a predetermined code previously set to thecircuit 106d (S6). Then, when the code signal coincides with the setcode, the main relay 124 is energized to turn the main power supply 109to ON (S7).

If radiowave communication is not possible due to the exhaustion of anelectric cell contained in the transceiver 107 or by the failure of thetransmitting/receiving unit 106, it is also possible to turn on the mainpower supply 109 by turning on the emergency switch 126 by themanipulation to the mechanical key 127 disposed in the transceiver 107(S8), (S9).

When the main power source 109 is turned on in a state where thehandlebars 102 are is locked, the solenoid 121 in the steering lockactuator 110 is energized to attract the plunger 116. Then, engagementbetween the plunger 116 and the lock pin 112 is released and the lockpin 112 is withdrawn to the inside of the casing 111 by the resiliencyof the spring 110, by which the handlebars 102 are unlocked (S1O). Whenthe lock pin 112 is thus withdrawn to the inside of the casing 111, thelever 120 secured to the lock pin 112 urges the lock detection switch119 thereby turning off the lock detection switch 110. Thus, thesolenoid 121 is deactivated and the plunger 116 is protruded by theresiliency of the spring 117 and held at the circumferential surface ofthe lock pin 112.

Then, the start switch 112 disposed near the handle grip 102b isdepressed (S11).

Upon starting the engine, when the handlebars 102 are detected to benormally unlocked by the output of the lock detection switch 119, theengine is ignited normally (S12). On the other hand, if the handlebars102 are not unlocked normally and the lock detection switch 119 is keptON, a reducing signal is sent from the ignition control unit 132 to theignition unit 131 thereby inhibiting the engine from being ignitednormally (S13).

The engine stops in accordance with the judgement whether it should bestopped normally or immediately. Upon normal stop, when the OFF switch103b on the main board 103 is pressed (S15), the engine stops (S16) andthe main power supply 109 turns off (S17). On the other hand, in anemergency stop, when the kill switch 123 disposed near the handle grip102b is depressed (S18), the engine immediately stops (S19).Subsequently, when the OFF switch 103b on the main board 103 is pressed(S20), the main relay 124 turns off and the main power supply 109 isalso turned off (S21).

Then, it is judged whether it is necessary to lock the handlebars 102(S22). If the handlebars 102 are to be locked, the handlebars 102 areturned to a locking position and then the operation lever 114 disposedto the steering lock actuator 110 is pulled (S23), by which the lock pin112 protrudes outwardly of the casing 111 and the plunger 116 engagesthe engaging groove 118 of the lock pin 112 by the resiliency of thespring 117 to lock the handlebars 102 (S24) .

Then, the system judges whether it is necessary to light up the parkinglamp 129 (S25). If the parking lamp 129 is to be lit, the parking switch103c on the main board is pressed (S26). In response to the pressing,the transmitting/receiving unit 106 disposed to the vehicle 101 at firsttransmits a request signal at a predetermined frequency for apredetermined period off time (S27). When the request signal is receivedby the transceiver 107 carried by the driver (S28), the transceiver 107transmits a code signal inherent to the driver a predetermined number oftimes (S29). Then, the code signal is received by thetransmitting/receiving unit 106 (S30) and compared with the code set inthe circuit 106d (S31). Then, if the code signal and the set codecoincide with each other, the parking relay 128 is energized to lit theparking lamp 129 (S32).

In this embodiment, when the main power supply 109 remains ON, it isjudged by the ignition monitor circuit 133 as to whether the engine isin rotation or stops (S33). The period duping which the engine stops isjudged (S34) and, if the engine stops for more than 1 minute, a requestsignal at a predetermined frequency is transmitted from thetransmitting/receiving unit 106 by way of the transmission circuit 106ato the transceiver 107 on every one minute (S35) When the request signalis received by the transmitter 107 carried by the driver (S36), thetransmitter 107 transmits a code signal inherent to the driver apredetermined number of times (S37). Then, the code signal is receivedby way of the receiving circuit 106b to the transmitting/receiving unit(S38) and compared with the set code in the circuit 106d (S39). Then,when the code signal coincides with the set code, the main power supply109 is kept ON as it is (S40) .

On the other hand, if the code signal from the transceiver 107 is notreceived by the transmitting/receiving unit 106 after the request signalhas been transmitted from the transmitting/receiving unit 106 (that is,when the driver is away from the vehicle), the main power supply 109 isautomatically turned OFF (S41).

As has been described above, in accordance with the present invention,wireless communication is conducted between the card-like transceivercarried by the driver and the transmitting/receiving unit disposed onthe vehicle on every predetermined time in a state when the main powersupply remains ON and the engine stays stopped. Then, if normal wirelesscommunication can not be taken place over a predetermined period of timebetween them, the main power supply is turned OFF automatically.Therefore, wasteful consumption off electric power can be prevented in acase where the engine is stopped by direct operation to the kill switchor by accident (engine trouble) and the driver gets off the vehiclewhile forgetting to disconnect the main power supply.

What is claimed is:
 1. An electric power supply control device for avehicle comprising:a steering lock circuit for actuating a lock actuatorfor driving a steering lock device of a vehicle, a circuit for a vehiclerunning system for actuating an engine of said vehicle, a power supplycircuit for supplying electric power to said steering lock circuit andsaid circuit for the vehicle running system, a locking operation switchfor outputting an operation instruction signal for actuating said lockactuator in the direction of locking said steering lock device, a codetransmitter means carried by a driver for transmitting a predeterminedinherent code signal upon receiving a predetermined request signal, atransmitting/receiving circuit disposed on the vehicle for transmittingsaid predetermined request signal to said code transmitter means and forreceiving said predetermined inherent code signal transmitted from saidcode transmission means, a code comparison circuit for comparing saidreceived predetermined inherent code signal with a predetermined codepreviously stored in said code comparison circuit, a running operationswitch means disposed on the vehicle for actuating saidtransmitting/receiving circuit and connecting said vehicle runningsystem circuit with said power supply circuit when said receivedinherent code signal coincides with said stored predetermined code, andan off switch disposed on the vehicle to be operated for disconnectingsaid power supply circuit for vehicle running from a power source andturning said power supply circuit to off, wherein said circuit forvehicle running system and said steering lock circuit are connected to apower supply circuit so that said running system circuit cannot beactuated when said steering lock circuit is enabled and said steeringlock circuit cannot be actuated when said running system circuit isenabled.